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Title

Spectroscopic detection and quantification of heme and heme degradation products.

Authors

Neugebauer, U.; März, A.; Henkel, T.; Schmitt, M.; Popp, J.

Abstract

Heme and heme degradation products play critical roles in numerous biological phenomena which until now have only been partially understood. One reason for this is the very low concentrations at which free heme, its complexes and the partly unstable degradation products occur in living cells. Therefore, powerful and specific detection methods are needed. In this contribution, the potential of nondestructive Raman spectroscopy for the detection, quantification and discrimination of heme and heme degradation products is investigated. Resonance Raman spectroscopy using different excitation wavelengths (413, 476, 532, and 752 nm) is employed to estimate the limit of detection for hemin, myoglobin, biliverdin, and bilirubin. Concentrations in the low micromolar range (down to 3 μmol/L) could be reliably detected when utilizing the resonance enhancement effect. Furthermore, a systematic study on the surface-enhanced Raman spectroscopy (SERS) detection of hemin in the presence of other cellular components, such as the highly similar cytochrome c, DNA, and the important antioxidant glutathione, is presented. A microfluidic device was used to reproducibly create a segmented flow of aqueous droplets and oil compartments. Those aqueous droplets acted as model chambers where the analytes have to compete for the colloid. With the help of statistical analysis, it was possible to detect and differentiate the pure substances as well as the binary mixtures and gain insights into their interaction. [Figure not available: see fulltext.]

Subjects

HEME; SPECTRUM analysis; RAMAN spectroscopy; WAVELENGTHS; HEMIN; GLUTATHIONE; MICROFLUIDIC devices

Publication

Analytical & Bioanalytical Chemistry, 2012, Vol 404, Issue 10, p2819

ISSN

1618-2642

Publication type

Academic Journal

DOI

10.1007/s00216-012-6288-9

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